Panasonic Multilayer Ceramic Capacitors( Shera) General Multilayer Ceramic Chip Capacitors (For General Electronic Equipment) Series: ECU Series: ECJ Mi Features Mi Recommended Applications @ Small in size and wide capacitance range Class 1 (T.C. Type) @ Superior humidity characteristics and long life Temperature compensation, tuned circuits, and filter thanks to monolithic construction circuits, where low loss, high stability of capacitance, @ Excellent solderability and resistance to soldering and high insulation resistance are required heat thanks to terminals with three layers of silver, Class 2 (Hi-K Type) nickel, and solder Coupling and By-pass, where low loss and high @ Low self-inductance and excellent frequency stability of capacitance are not so important characteristics M@ Explanation of Part Numbers @ ECU Series 1 2 3 4 5 6 7 8 9 10 an 12 = Product Code Rated Voltage ||Nominal Capacitance Capacitance Multilayer Code | Voltage || Ex. Cap. Tolerance Size Code ECU | Ceramic Chip 1H_[s0vDC|[ ORS | O.SpF [Code] Tol_| Note 0402 Capacitors 1E [25 voc|| 010 TF |} | +0.25 pF 0603 2 D_| 205 pF | #10 1c _|16vDC|| 100 10 pF OT OF 0805 4 101 100 oF #1 pF 100000 pF 25% 4 104) o.1pF) [LK [210% | >10 1206 M_|#20% | pF W_ | Reel Taping +80 2 Z on % B Z_ |Reel Taping F 4 * When omitted, all the rest P/N factors shall be moved up respectively @ ECJ Series 1 2 3 4 6 ffl 1 1 1 Temperature Rated Voltage] |_ Nominal Capacitance Capacitance Product Code Suffix Ure Multilayer Size Code Characteristics | Code [Voltage |[ Ex. [ Cap. Tolerance ECJ | Ceramic Chip (Code Temp.Char] 7H [50 vpc 1] 103 | 10000 pF (Code| Tol. Note} Capacitors B B/X7R 4E |25 VDC 100000 pF K | 410% FL Fvev Wc ltevoc]| | orpr| [Mm | 20% r 4 1A [10 VDC]} 105 1 uF Z +80 96 4 W | Reel Taping 2 Z_ | Reel Taping 4 Mi Precautions for Handling See Page 26 to 30 Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic i Construction Multilayer Ceramic Capacitors(f" a1) Hi Dimensions in mm (not to scale) @ Substrate electrode @ Intermediate electrode External electrode L li le Inner electrode Ceramic dielectric (mm) Size Code (EIA) L Ww T Li le 10 Type (0402) 1.00+0.05 | 0.50+0.05 | 0.50+0.05 | 0.20+0.10 0603) 1.60+0.10 | 0.80+0.10 | 0.80+0.10 | 0.30+0.20 12 Type (0805) 2.0020.10 | 1.25+0.10 | 1.35 max.* | 0.50+0.25 13 Type (1206) | 3.20+0.15 | 1.60+0.15 1.8 max.* | 0.60+0.30 2% Specified by the nominal capacitance li Capacitance Range in pF @ T.C. Type Size Capacitance Range (pF) [50 VDC] Dim. T N150 N220 N330 N470 N750 Class Code (EIA) (mm) Pa* Ra* Sa TA* UA* 50VDC 50VDC 50VDC 50VDC 50VDC 10 (0402) | 0.50+0.05 0.5-39 0.5-39 0.5-39 0.5-39 0.5-120 11 (0603) | 0.80+0.1 0.5-150 0.5-180 0.5-180 0.5-220 | 0.5-1200 42 (0805) 0.6+0.1 0.5-220 0.5-220 0.5-220 0.5-270 | 0.5-2700 1 0.85+0.10 240-330 240-390 240-470 300-470 _ 0.6+0.1 240-560 | 240-680 240-680 300-820 | 3000-5600 13 (1206) | 0.85+0.10 620-1200 | 750-1200 | 750-1500 | 910-1500 _ 1.15+0.10 _ _ _ _ _ * PA to UA : Special order (Capacitance values) E12 series : Standard order, E24 series : Special order @ Hi-K Type Size Dim. T Capacitance Range (pF) Class Code (mm) F [Y5V] (EIA) 16 VDC } 10 voc | 50VDC | 25vDC | 16 VDC | 10 VDC 10 (0402) | 0.50+0.05 5600-15000 _ 1000-10000 } 1000-22000} 18000-100000 _ 11 (0603) | 0.8+0.1 10000-10000] 120000-220000] 1000-47000 | 68000, 100000 | 100000-470000 | 1000000 0.6+0.1 _ _ 10000-68000) 68000-150000 | 100000-220000 _ 2 |*12 (0805) | 0.85+0.10 47000-220000 _ 100000-220000} 220000 _} 330000-1000000) _ 1.25+0.10 270000-470000 | 560000-100000 _ 330000,470000 |1500000,2200000 | 3300000,4700000 0.85+0.10 100000-680000} _ _ 470000 |680000-2200000 _ 13 (1206) | 1.15+0.10 820000, 1000000 _ _ 680000-2200000}3300000,4700000 _ 1.6+0.2 = 200000-330000 = = 10000000 e(Capacitance values) B[X7R] E6 series : Standard order, E12 series : Special order F[FSV] E3 series : Standard order, E6 series : Special order Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Hi Nominal Capacitance vs. Capacitance Tolerance Multilayer Ceramic Capacitors( Eh eral ) Tol. Code [Capacitance Tolerance} Nominal Capacitance Available (pF) Temp. Char. Class C +0.25 pF 0.5, 1, 1.5, 2,3, 4,5 D 10 pF +0.5 pF 1, 1.5, 2,3, 4, 5, 6, 7, 8, 9, 10 CA to UA 1 FE +1.0 pF 10 (NPQ) (N750)} (T.C. Type) J +5 % E24 and SL > 10 pF says . K +10 % E12 Within Capacitance Range, K +10 % E12 E-Series Numbers x10" B OTR 5 M +20 % E6 ( ) (Hi-K T ) i e Z +80, -20.% E6 F (Y5V) yP i E-Series Numbers E3 1 2.2 47 E6 1 15 2.2 3.3 AT 6.8 E12 1 1.2 1.5 1.8 2.2 27 3.3 3.9 AT 5.6 6.8 8.2 E24 | 1 |iafi2|ia[1s[ie[1s] 2 [22/24/27] 3 [3.3]36]3.9]43]47 [5.1] 5.6 |6.2[6.8[7.5/8.2]9.1 Hi Temperature Coefficient of Class 1 Capacitors/T.C. Tolerance (ppm/C) Temp. Coeff. Code. | Ga (NPO) | PA (N150) | RA (N220) | Sa (N330) | TA (N470) | UA (N750) SL T.C. Cap. <2pF | CK(+250) | PK(+250) | RK(+250) | SK(+250) | TK(+250) | UK(+250) | +350to-1000 Te: 3pF | Cu(+120) | Pu(+120) | Ru(+120) | SJ(#120) | TU(+120) | UU(+120) | +350to-1000 24pF | CH(+60) PH(+60) RH(+60) SH(+60) TH(+60) | Ud(+120) | +350to-1000 i Temperature Characteristics of Class 2 Capacitors i hi Capacitance Change Measurement net Temp. Char. Temperature T ererence No DC Voltage Applied |1/2 Rated Voltage Applied Range emperature B (X7R) +10 % max. +10, -30 % max. -25 to 85 C 20C F (5V) +30, -80 % max. +30, -95 % max. -25 to 85C 20 C Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic lf Specifications Multilayer Ceramic Capacitors(f" a1) Specifications Characteristics Class 1 (T.C. Type) Class 2 (Hi-K Type) Test Methods CA to UA, SL B(X7R) F(Y5V) Operating Temperature Range -55 to 125 C* -25 to 85C 50 VDC, 25 VDC Rated Voltage 50 VDC 16 VDC, 10 VDC Dielectric Withstanding Voltage No break down Test Voltage Class 1: Rated Voltage x3 Class 2: Rated Voltage x2.5 Electrification time : 1 to5s Limit surge current: 50 mA max. Insulation Resistance(IR) IR210000MQ IR 2 10000MQ or 500/C (MQ) whichever is less [C: Rated capacitance in pF] Measurement Voltage : Rated Voltage Electrification time : 60 + 5s (Electrificationtime of 10VDC is 2 minutes) Limit surge current: 50 mA max. Capacitance Within the specified tolerance Capacitance < 30 pF Rated | Temperature Characteristics Q Factor or Q 2 400+20 C#** Voltage B F Dissipation Factor 30 pF s Cap. $ 1000 pF | 50 VDC Ttan = 0.0251 tand 5 0.05 (tan 6) Qz 1000 25 VDC |tan 5s 0.025 | tands 0.05 Capacitance > 1000 pF (tan $0.07)" {tan 5) s 0.002 16 VDC }ian s 0.025] and 0.07 (tan 6 $ 0.035)" 10 VDC | tand 0.05 ftand s 0.125. Standard Temperature : 20 C Measurement (1) Class 1 (T.C. Type) Nominal Cap} Frequency Cs 1000pF }1 MHz+10 % C > 1000 pF |1 kHz+ 10 % (2) Class 2 (Hi-K Type) Pretreatment : 180+0/-10 C for 1 hour and then shall be stored in a room temperature for 48 + 4 hours, before initial measurement. Frequency | Voltage 1 kHz+10 % }1.0+0.2 Vrms Voltage 0.5-5 Vrms x Operating Temperature Range: -25 to 85C for capacitance range of 5100 to 10000 pF, NPO, Type 13. xx Specified by individual Specification see Nominal capacitance value in pF Minimum Q at 1 MHz Minimum Insulation Resistance 5000 1000 g 1000 Minimum Q aD 8 100 50 200 Minimum Insulation Resistance (MQ) 10 20 30 40 Nominal Capacitance (pF) TNominal capacitance value in oF 1000 Nominal Capacitance (uF) TINominal capacitance value in uF Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors( Eh era) li Capacitance Range (in pF) @ [Size Code 10 Type/0402] emp.) CA PA RA SA TA UA emp. Char. SL Char. B/X7R FIY5V (NPO) N150) |(N220)}(N330) |(N470) |(N750) Cap. (pF) SOV | 50V | 50V ] 50V) 50V |] 50V | SOV Cap. (pF) 50 V| 25V! 16 Vj 50 V] 25 V 1 16V 05 100 1 120 15 150 2 180 3 220 4 270 5 330 6 390 7 470 8 560 9 680 10 820 4 1000 12 1200 13 1500 15 1800 16 2200 18 2700 20 3300 22 3900 24 4700 27 5600 30 6800 33 8200 36 10000 39 12000 43 15000 [qj 47 18000 51 22000 56 27000 62 33000 LC] 68 39000 75 47000 82 56000 a1 68000 LC] 100 82000 110 100000 120 130 150 I Dimensions in mm (not to scale) 160 [10 Type] [0402(EIA)] 180 1.00+0.05 200 0,020.05 220 0.500.05 0.2+0.1 0.20.1 Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors(2" .,a1) li Capacitance Range (in pF) @ [Size Code 11 Type/ 0603 (EIA)] A SL 1 SOV | 50V_ | 50V_| 50V B/X7R F/Y5V Vj25 VjIGV vj50 V}25 V{16 V Vv 86000 100000 *& Under development Hi Dimensions in mm (not to scale) [11 Type] [0603 (EIA)] 1.6+0.1 0,340.2 0,320.2 Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors( 2, era) li Capacitance Range (in pF) @ [Size Code 12 Type/ 0805 (EIA)] Rated SL + Under development Hi Dimensions in mm (not to scale) [12 Type] [0805 (EIA)] 2,020.1 ay nv 1 0.50+0.25 | i 0.5020.25 Wi Thickness T T (mm) 0.6+0.1 0.85+0.10 1.25+0.10 Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic li Capacitance Range (in pF) @ [Size Code 13 Type/ 1206 (EIA)] SL Multilayer Ceramic Capacitors( Sera) + Under development Hi Dimensions in mm (not to scale) [13 Type] [1206 (EIA)] 3.2020.15 0.6#0.3 | 0.6403 Mf Thickness*T T (mm) 0.6+0.1 0.85+0.10 1.15+0.10 1.640.2 T 1.6mm : L=3.2020.20, W=1.6020.20 Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors(2" .,a1) li Standard Products for10Type (EIA0402Type) , Taped Version [Rated Voltage 50 VDC] CA SL PA (N1 RA SA TA UA Capacitance | Capacitance (pF) Tolerance | Part No. | T | Part No. | T | Part No. | T] Part No. | T |] Part No. | T] Part No. | T | Part No. | T 100 .5] ECUETHTOILI 10. H101U0 110 5] ECUETHTTHQ 0. AHH JUQ 120 5] ECUETHI21L10 10. 1H121 U0 130 5] ECUETHI31J0 150 5] ECUETHIS1L10 160 5} ECUETHIB1IQ 180 5] ECUETHTB1L10 200 5] ECUETH2010 220 5] ECUETH22110 (Packing Style Code 0.5 -5| ECUETHORSCO HORSCRO {HORSCSO 5 1 -5/ ECUETHO10L [O. {HO10( 70 [0. STECUE(HO10_U0 [0.5 15 [40.25 tH1RS_IC0 [0.5] ECUEIHIRE IO -S|ECUEIHIRSUO|0.5 2 (C) 5] ECUETHO2010 (0. tH020( 70 5 3 | 205 pF 5 [ECUEIHIAI 0. tHO301 70 5 4 (D) -5/ ECUETHIAIL (0. tHO40110 5 5 ECUETHISO_Q [O. H06010 [O. 5 6 5] ECUETHOG0DQ 0. HOSODRQ HOBODTO [O. 5|ECUETHOGODUG [0.5 7 |#0.5 pF 5) ECUETHO700 [O. tHOTODRQ AHO7O0TO [O.5|ECUETHOTODUG [0.5 8 (D) 5] ECUETHOIDQ [0. . {HOB0DRQ {HO80DTO |O. tHOB0DUA [0.5 9 5) ECUETHOIDA [O. -5|ECUETHO90DRO HOg00TO [O. 5|ECUETHOGODUG [0.5 10 5] ECUETHIO0LO (0. tHt00L TO [0.5|ECUEIHt00_U0 [0.5 11 S| ECUEIHTION (0. -SIECUETHTIOURO AHI 1050 5 12 5] ECUETHT20L10 (0. AH120(70 (0. 5|ECUEIHt20_U0 [0.5 13 5) ECUETHIINA (0. 5 |ECUETHT30JRO tHI30ISQ 5 15 5) ECUETH50L10 (0. AHt50( 70 10. 5|ECUEIHt50_U0 [0.5 16 5) ECUETHIENA (0. -S|ECUETHT60URO AHI6OISQ 5 18 5] ECUETHT80L1 (0. {H1G0C07Q [0.S|ECUETHt80=U0 [0.5 20 5) ECUETHONA (0. 5 [ECUETH200RO AHDOOISO 5 22 5] ECUETH2010 (0. {HE20(110 5 24 5] CUE [O. -SIECUETH240URO {HEADS 5 27 5] ECUETH270_10 (0. {HE7OLITO 5 30 5) ECUETHBONA (0. -SIECUETHS00RO {HB00ISQ 5 33 5] ECUETHB30L0 (0. 1H330(]10 5 36 5] ECUETHBEONA (0. 5 [ECUETH360URO {HB601SQ 5 39 5] ECUETHB00LI0 [O. {H890(70 (0. S|ECUE1H390_U0 [0.5 43 5] ECUETHR0IA 10. (Cap. Tol. Codey* THA 10.5 47 5] ECUEIH#70L10 (0. 1H470_U0 [0.5 51 5) ECUETHE10/0 (0. tHB10UG [0.5 56 5] ECUETHS60L1 (0. 1H660_U0 [0.5 62 5) ECUETHB20/0 (0. tHEANIUG [0.5 68 5] ECUETHB80_I0 [O. {H680_U0 [0.5 75 5) ECUETHT5O/0 (0. AHTSOIUO [0.5 82 5] ECUETHB20_10 (0. HE20_U0 [0.5 o1 5) ECUETHIOA 0. AHOIOUA [0.5 5 5 5 + Packaging Style Code: E for Taped Version (Taping pitch: 2mm) and X for Bulk Type. O: Capacitance Tolerance Codes. Capacitance values of E24 series and capacitance tolerance of 45% are available on special order. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors(f2" ea) Mi Standard Products for 10 Type (EIA 0402 Type) , Taped Version B/X7R FIVSV Capel 9g | 5O.VOC 25 VDC 16 VDC | 50 VDC 25 VDC 16 VDC tence | PA Dim. Dim. Dim | Dim. Din. Dim. (pF) tive Part No. | T Part No. T Part No. T be Part No. T Part No. | T Part No. T Tolerance Tolerance (mm) (mm) (mm) (mm) (mm) (mm) 100 ECUETHI01LBO) 0.5 | ECUETE101L Bd) 0.5 720] ECUE(H121KBQ| 0.5 | ECUEIE121KBal 0.5 760] ECUETHIS1_BO 0.5 | ECUEIE(51L1B0] 0.5 580] ECUETH181KBQ] 0.5 | ECUEIE181KBal 0.5 ~~ 390] ECUETH22i0180) 0.5 | ECUETE221C BCI 0.5 ~ 370] ECUE(H271KBQ] 0.5 | ECUETE271KBal 0.5 330] ECUETH331.B0) 0.5 | ECUE1E331L 180) 0.5 390 ECUEIH391KBQ| 0.5 | ECUE1E391KBQ| 0.5 ~a70| ECUEIHA710180 0.5 | ECUETE47ILBCI 0.5 ~ 560 ECUEIHS61KBQ| 0.5 | ECUETES61KBQ| 0.5 ~ 680] ECUETHS81_BO) 0.5 | ECUE1E681L 180) 0.5 ~ 320] ECUE(H821KBQ] 0.5 | ECUETE821KBal 0.5 or) ECUEIH1020180 05 | ECUETE102_BC 0.5 ECUEH102zFQ) 0.5 |ECUEIE1O2zFQ] 05 7200] +10 %|ECUETHt22KBq] 05 | ECUETE122KBq| 05 1600] (K). [ECUETHt52C18q) 05 [ ECUETEI52/1Bd] 0.5 20, [EcuetnszzFo| 05 [Ecuetetszzra| 0. 1800] or JECUEWHI82KBQl 05 | ECUETE182KBq| 05 -20 2200] +20 %) ECUETH2220180) 05 | ECUEIE22201B0) 05 ( EcueW2227Fq] 05 |ECUEIE2227Fa] 05 2700] (M) JECUEWH272KBa] 05 | ECUETE272KBq| 05 3300] ECUETH332.B0) 05 | ECUE1E33201B] 0.5 ECUEIH3322FQ| 0.5 |ECUEIE3327FQ| 0.5 3900 ECUE1H392KB0) 0.5 | ECUETE392KB0Q| 0.5 4700| (Packaging Style Codey [ECUETE4720180) 05 ECUEIH4727FQ| 0.5 |ECUEIE472zFQ| 05 5600 ECUEIE562KBQ] 0.5 [ECUEIC562KBq| 0.5 6800] ECUE1E682 180) 0.5 |ECUEICe82LIBd 0.5 ECUEIH6822FQ| 0.5 |ECUEIE6827FQ| 0.5 #200] ECUEIC822KBQ] 0.5 10000] ECUEIC103.18q 05 ECUEIH1032FQ| 0.5 |ECUEIE103ZFQ| 0.5 12000] ECUEIC123KBq| 05 15000 ECUEICI53L18q 05 ECUEIE13ZFQ| 0.5 | ECUE1C183zF0|05 +000] (Cap. Tol. Code)* 22000] ECUEIE223ZFQ| 0.5 | ECuE1223zF0|0.5 27000} 33000 ECUE1C3332FQ| 0.5 39000] 47000] ECUEIC4732FQ| 05 56000] 68000] ECUE1C683ZFQ| 0.5 82000] oocod ECUEIC104ZFQ| 05 * (7: Capacitance Tolerance Code. xk Packaging Styles Code: E for Taped Version (Taping pitch: 2mm) and X for Bulk Type Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors(Eeh era) Mi Standard Products for11T pe (EIA0603"Type) , Taped Version [Rated Voltage 50 VDC] CA (NPO) SL PA (N150) | RA(N220) | SA (N330) | TA (N470) | UA (N750) Capacitance | Capacitance (pF) Tolerance Dir. Dir. Dir. Dir. Dir. Dim. Dim. Part No. | T | Part No. | T | Part No. | T] Part No. | T | Part No. | T} Part No. | T| Part No. | T (nm) (nm) (nm) (nm) (rn) (rn) (rn) 0.5 |+0.25 pF{C}} ECUVIHORSCCV] 0.8] ECUVIHORSCV 10.8] ECUVIHORSCPV | 0.8] ECUVIHORSCRV |0.8] ECUVIHORECSV 0.8] ECUVIHORECTY |0.8 | ECUVIHORSCUV |0.8 1 ECUVIHO1OLCV]0.8) ECUVIHOTOLJV 0.8] ECUVIHO1OL)PV| 0.8 | ECUVIHO10LJRV|0.8 | ECUVIHOI0(JSV |0.8 | ECUVIHO1OLTV| 0.8} ECUVIHOTOLJUV}0.8 15 60.25 p ECUVIHIRELJCV}0.8] ECUVIHIRSLWV |0.8] ECUVTHIRSLIPV] 0.8] ECUV1HIRSLIRV| 0.8 | ECUVIHIRSLSV1 0.8 | ECUVIHIRELITV] 0.8 ECUVIHIRSLUV] 0.8 2 (C) ~ |ECUVHo20Q{CV]0.8) ECUVIHO20QV |0.8] ECUVIHo20LPV| 0.8 | ECUVIHO20(JRV|0.8 | ECUVIHO20(JSV |0.8 | ECUVIHO20LITV| 0.8 | ECUVIHO20(]UV}0.8 3 20.8pF ECUVIHOI0LICV]0.8) ECUVIHOS0QJV 10.8] ECUVIHO30LPV| 0.8 | ECUVIHO30(JRV| 0.8 | ECUVIHOS0(JSV |0.8 | ECUVIHO30LITV 0.8 | ECUVIHO30_JUV| 0.8 4 ECUVIHO4OLICV}0.8] ECUVIHOd0LJV |0.8] ECUVIHO4LJPV 10.8] ECUVIHO40LJRV| 0.8 | ECUVIHO40LJSv 10.8 | ECUVIHO4OLITV 0.8] ECUYHO4aLJUY 0.8 5 ECUVIHOSOLICV}0.8] ECUVIHOS0LJV |0.8] ECUVIHOS0L)PV 10.8] ECUVIHOS0L]RV| 0.8 | ECUVIHOE0LJSV 10.8 | ECUVIHOSOLITV 0.8] ECUYHOSOLJUY| 0.8 6 ECUVIHOBODCV |0.8] ECUVIHOB0DV 10.8} ECUVTHOBODPV 10.8} ECUVHOBODAV] 0.8] ECUVIHOSODSV 10.8] ECUVIHOBODTV ]0.8] ECUVIHOBODUV |0.8 7 20.8 pF ECUVIHO7ODCV|0.8] ECUVIHO7ODY 10.8] ECUVIHO7ODPV 0.8] ECUVHO7ODAV] 0.8] ECUVIHO70DSV 10.8] ECUVIHOPODTV 0.8] ECUVIHO7ODUV |0.8 8 ECUVIHOS0DCV|0.8] ECUVIHOBODV 10.8] ECUVTHOBODPV 10.8} ECUVHOBODAV] 0.8] ECUVIHOSODSV 10.8] ECUVIHOBODTV ]0.8] ECUVIHOBODUV | 0.8 9 ECUVIHOGODCV|0.8] ECUVIHOODV 10.8] ECUVIHOBODPV 10.8] ECUVHOQODAV] 0.8] ECUVIHO9ODSV 10.8] ECUVIHO9ODTV ]0.8] ECUVIHOSODUV | 0.8 10 [305% G ECUVIHT00LICV] 0.8) ECUVTHTOOLV |0.8] ECUVIHIO0PV]0.8] ECUVIHT00LJAV| 0.8 | ECUVIHTO0L]SV | 0.8] ECUVTHIO0LITV} 0.8 | ECUVIHTO0LJUV] 0.8 12 ECUVIH120(0V}0.8] ECUVIH120Q)v |0.8] ECUVIHt20L)Pv 0.8] ECUVIH120L]RV| 0.8 | ECUVIH120L)$v 10.8 | ECUVIH120(ITV 0.8] ECUYTH120(JUY| 0.8 15 ECUVIHIS0LICV}0.8] ECUVIH1S0LJV |0.8] ECUVIHIS0L)PV 0.8] ECUVIHIS0LRV| 0.8 | ECUVIH160L]Sv 10.8 | ECUVIHIS0LTV 0.8] ECUVIHIS0LJUY| 0.8 18 ECUVIH180(ICV}0.8] ECUVIH1G0QJv |0.8] ECUVIHt80L)PV 0.8] ECUVIHT80LRV| 0.8 | ECUVIH1a0LJSv 10.8 | ECUVIH180LTV 0.8] ECUVIHI80LJUY 0.8 22 ECUVIH220(}CV}0.8] ECUVIH220Q)v |0.8] ECUVH220L)Pv 0.8] ECUVIH220RV| 0.8 | ECUVIH220L)Sv 10.8 | ECUVIH220LITV 0.8] ECUVIH220(JUY| 0.8 27 ECUVIHZ70L}CV}0.8] ECUVIH270QJv |0.8] ECUVIH270L)PV 0.8] ECUVIHZ70LRV| 0.8 | ECUVIH270LJSv 0.8 | ECUVIH270LITV 0.8] ECUVIH270(JUY| 0.8 33 ECUVIHS30L]CV] 0.8] ECUVIH330Q)V |0.8] ECUVH330L)PV /0.S] ECUVIH830LRV| 0.8 | ECUVIHS30L)SV 10.8 | ECUVIH390LITV 0.8] ECUVIH330(JUY| 0.8 39 ECUVIHS90LICV}0.8] ECUVIH390QJV |0.8] ECUVH390L)PV /0.8] ECUVIHa90LRV| 0.8 | ECUVIH90L)Sv|0.8 | ECUVIH390LITV 0.8] ECUVIH390(JUY| 0.8 47 ECUVIHATOLICV}0.8] ECUVIH470Q)V |0.8] ECUVIH470L)PVv 0.8] ECUVIH470LRV| 0.8 | ECUVIH470L)Sv 0.8 | ECUVIH470LITV 0.8] ECUVIHA7OLJUY 0.8 56 ECUVIHE60LICV}0.8] ECUVIHS60LJv |0.8] ECUVHS60L)PV /0.8] ECUVIHE60LRV| 0.8 | ECUVIHS60LISV 10.8 | ECUVIHB60LITV 0.8] ECUVIHS60LJUY| 0.8 68 ECUVIH680LICV} 0.8] ECUVIHE80LJV |0.8] ECUVHE80L)PV /0.] ECUVHE80LRV| 0.8 | ECUVIH680LISV 10.8 | ECUWTH680LITV 0.8] ECUVIH6BOLJUY| 0.8 82 5 og ECUVIHG20LICV] 0.8] ECUVIH820Q)V |0.8] ECUVH820L)PV /0.8] ECUVIHe20RV| 0.8 | ECUVIHA20LISV 10.8 | ECUVIHA20(JTV 0.8] ECUVIH820[JUY| 0.8 100 (J) JECUHI01LICV]0.8) ECUVIH1O1LJV 10.8] ECUVTHIO1L]PV }0.8] ECUVIHI01LAV| 0.8] ECUVIHTO1L{SV |0.8] ECUVIHT01LJIV]0.8| ECUVIHIG1UV}0.8 120 210 % ECUVIH121(}CV]0.8] ECUVIHI2iLJV |0.8] ECUVIHt21L)PV 0.8] ECUVIHT21ZRV| 0.8] ECUVIHt2iLISV 10.8 | ECUVIH21[JTV 0.8] ECUVIHI21[ JUV] 0.8 150 ECUVIHIS1L}CV}0.8] ECUVIH1SiLJV |0.8] ECUVIHIS1L)PV 0.8] ECUVIH1S1ZRV| 0.8 | ECUVIH1S1LISV 10.8 | ECUVIHS1JTV 0.8] ECUVIHISILJUY| 0.8 180 ECUVIHIBILJCV]0.8) ECUVIHISiL]V |0.8 ECUVIHIBIL}AV|O.8 | ECUVIHi81[ SV [0.8 | ECUVIHT8t[JIV]0.8 | ECUVIHTBIL]UV] 0.8 220 ECUVIH221[}CV] 0.8) ECUVIH22iQ)V ]0.8 (Packaging Style Code)* ECUVIH221(J1V}0.8 | ECUVIH221 UV} 0.8 270 ECUVIHE7ILJCV]0.8) ECUVIH27ILV ]0.8 ECUVIH27IQUV}0.8 330 ECUVIH831[]CV}0.8] ECUVIHasiLV 0.8 ECUVIHS31QUV}0.8 390 ECUVIHG91LICV}0.8] ECUVIHasiILV 0.8 ECUVIH3G1UV}0.8 470 ECUVIHA7ILICV]0.8) ECUVIHATICY |0.8 ECUVIHAIUV}O.8 560 ECUVIHE61LICV}0.8] ECUVIHSSiLJv |0.8 ECUVIHSE1UV}0.8 680 ECUVIH681[ICV}0.8] ECUVIHEsiLJV |0.8 ECUVIH6S1UV}0.8 820 ECUVIHB21[}CV] 0.8) ECUVIHG2ILIV |0.8 ECUVIH821UV}0.8 1000 ECUMIHI02[}CV] 0.8) ECUVIHTO2D)V |0.8 ECUVIHO2UV}0.8 1200 (Cap. Tol Codey | ECUVIHI22N 10.8 ECUVIHI20UV}0.8 * Packaging Style Code V for Taped Version (Taping pitch: 4mm) and xX for Bulk Type. O: Capacitance Tolerance Codes. Capacitance values of E24 series and capacitance tolerance of 45% are available on special order. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors( ee era) Mi Standard Products for11Type (EIAO603 Type) , Taped Version B/X7R F/Y5V Capac caec 50 VDC 25 VOC 16 VDC 10 VDC | ap 50 VOC 25 VDC 16 VDC 10 VDC tance Dim. Dim Dim. Dim) Dim. Dim Dim) Dim. (pF) lane Part No.| T |Part No. | T |Part No.} T |Part No. | T lane Part No.| T |Part No.} T | Part No.| T |Part No. | T Tolerancel nm) ni a nm) Tolerance (rm ni en rm) a ECUVIHE2ICBY | 08 aA ECUYIHZTIKBY | 08 a ECUVIKIDBY | 08 a ECUVIHGSTKBY | 08 aa ECUVIHATICDBY | 08 aa ECUVIASIKBY | 08 ead ECUVINEBILBY | 08 ag] ECUYIHE2TKBY | 08 00g Ecuivatateel | 08 Ecuvinioazry | 08 pa EqutvetHi2ak | 08 1660 ECIIVBINIED | 08 EcuviHteazFY | 08 0 EqutvetHieax | 08 pono} 210% | ouvetne2 | 08 Ecuvinaeazry | 08 ~ar00} (Ky [eoovetaerax | 08 0, 0g) or Pecovetusan | 08 oo Frewvmsary [08 ~~ ge00) 120% Eouvetnaeex | 08 a goo} ay Pecovatnaray | 08 EcuIHaTaZFY | 08 ~ sen EcutvetHsexx | 08 ~e00 Eciivatweay | 08 ECUVIHESIZFY | 08 en Ecutvetns2ak | 08 reo EcutvetHioat) | 08 | ecotvateteen | 08 | ecvweictoay | 08 EGuIvEHtOGZ | 08 ta ecutvetnizax | 08 | ecuveteieax | 08 [ecuwBictzax | a8 e004 ecutvatnie | 08 | eciwieiso | 08 | eowvarcrsan | 08 EGHIVEINIEGZ | 08 aod == (Cap. Tol. Codey [ecuivaicteak | 08 | Ecutvaicisak | 08 yn EcuivetE22a0) | 08 | eovwvBiczay | 08 EcuiveHo28Z | 08 ran eouivetea7ax | 08 | eovwvBiczzaK | 08 eo EcutvBtese | 08 | ecviveicasan | 08 EGHIVEINGRZ | 08 a0 EGuIVBIERBRK | 08 | EovIvBiCHeaK | 08 77004 ecunvateerd | 08 [ eciwaicwan | 08 EGHIVEIMITGZ | 08 sean (Packaging Style Codey | ECNIVBICSBIK | 08 een cuiverceea | 08 ECuIvFiEse | 08 eon ECUIVBICRAK | 08 Tovndd EcutvBicibid | 08 EcuiVFIEtOAZ | 08 | Ecutveiciowz | 08 e000 ECIIVBIAISAD | 08 EcIFICIEAZ | 08 ond ECHIVBIAZIAD | 08 Ecutveica2az | 08 000d EcIWFICeaZ | 08 A004 EquiveicaTaZ | 08 eco EGHIVEIATOGZ | 08 soo noon *Packaging Styles Code: V for Taped Version (Taping pitch: 4mm) and x for Bulk Type. 4ek(: Capacitance Tolerance Codes. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic For Multilayer Ceramic Capacitors( Genera) i Standard Products for12 Type (EIA0805 Type) , Taped Version [Rated Voltage 50 VDC] CA (NPO) SL PA (N150) | RA(N220) | SA (N330) | TA (N470) | UA (N750) Capacitance | Capacitance Dim. Dim. Dim. Din. Din. Dim. Dim. (pF) Tolerance | Part No. | T| Part No. | T] Part No. | T}] Part No. | T] Part No. | T] Part No. | T] Part No. | T (mm) (mm) (rm) (rm) (rm) (rm) (mm) 0.5 | #0.25 pFC)| ECUVIHORSCCN | 0.6 | ECUVIHORSCN | 0.6 |ECUVIHORSCPN | 0.6 | ECUV1HORSCAN | 0.6 | ECUVIHORSCSN| 0.6 | ECUVIHORSCTN| 0.6 | ECUVIHORSCUN | 0.6 1 ECUV{HOTOLICN | 0.6 | ECUVTHOIOQIN | 0.6 | ECUVIHOTOLJPN] 0.6 | ECUVIHO1OLJAN| 0.6 | ECUVTHO1OLISN] 0.6 | ECUVIHO1OLITN] 06 | ECUVIHOIO(JUN] 06 1.5 0.25 pFIECUVIHIRSLION] 0.6 | ECUVIHIRSEIN | 0.6 |ECUVIHIRSLIPN] 0.6 |ECUVIHIRSLIAN| 0.6 | ECUVIHREL|SN] 0.6 | ECUVHIRSLITN] 0.6 |ECUVIHIRSLUN] 0.6 2 ) ECUV{HO2OLICN | 0.6 | ECUVIHO2OQIN | 0.6 | ECUVIHO20L]PN] 0.6 | ECUVTHO20Q)AN] 0.6 | ECUVTHO20(]SN] 0.6 | ECUVIHO20CTTN| 06 | ECUVIHO20(JUN] 0.6 3 _| 0.5 pF [EOUVIHOSOLION | 0.6 | ECUVTHO30LN | 06 | ECUVIHOGOLJPN| 0.6 | ECUVTHO30(JRN] 0.6 | ECUV1HOG0(JSN] 0.6 | ECUVIHOS0LIN| 0.6 | ECUVIHOaO/JUN] a6 4 (D) | ECUVIHO4CN| 06 | ECUVIHO4OLIN | 06 | ECUVIHO4OCJPN] 0.6 | ECUVIHO4OLJRN| 0.6 | ECUYHO4O(JSN] 0.6 |ECUVIHO40(JIN | 0.6 |ECUVIHO4OJUN] 0.6 5 ECUV{HOSOLICN | 0.6 | ECUVTHOSOQIN | 0.6 | ECUVIHOSOLJPN] 0.6 | ECUVTHOSOLJAN| 0.6 | ECUVTHOSOLISN] 0.6 JECUVIHOSOLTIN | 0.6 | ECUVIHOSOLJUN] 0.6 6 ECUVIHOBODCN | 0.6 } ECUVIHOGODN | 06 | ECUVIHOGODPN | 0.6 | ECUVIHOBODRN | 06 | ECUVTHOSODSN | 0.6 | ECUVTHOGODTN | 0.6 | ECUVIHOBODUN | 0.6 7 _|0.5 pF [ECUMHOTODCN | 06 | ECUVIHOTODN | 0.6 | ECUVIHO7ODPN | 0. | ECUVTHO7ODRN | 0.6 | ECUVIHO7ODSH | 06 | ECUVIHOTODTN | 0.6 | ECUVIHO7ODUN | 06 8 (D) | ECUVIHogODCN | 0.6 | ECUVIHOBODN | 0.6 | ECUVIHOBODPN | 0.6 | ECUVHOGODAN | 0.6 | ECUVTHOGODSN | 06 | ECUVIHOBODTN | 06 | ECUVIHOBODUN | 06 9 ECUVIHOSODCN | 0.6 } ECUVIHOGODN | 06 | ECUVIHOQODPN | 0.6 | ECUVTHOSODRN | 06 | ECUVTHOSODSN | 0.6 | ECUVIHOSODTN | 0.6 | ECUVTHOSODUN | 0.6 10 | 228%", | ECUVTHTOOLICN| 0.6 | ECUVTHTOOLIN | 0.6 | ECUVIHIOOCJN] 06 | ECUVTHTOO JAN] 0.6 | ECUVIHTOOL{SN] 0.6 JECUVTHO0LJIN| 06 | ECUVIHT00LJUN] 0.6 12 ECUVIHI20( CN | 0.6 | ECUVIH120Q0N | 0.6 | ECUVIHI20Q]PN] 0.6 | ECUVIHT20Q)RN| 0.6 | ECUVIH120()SN] 0.6 JECUVIH120CTIN | 06 | ECUVIH120(JUN] 0.6 15 ECUVIHISOLICN | 0.6 | ECUVIHISOQIN | 0.6 | ECUVIHIS0LJPN] 0.6 | ECUVIH1S0LJRN| 0.6 | ECUVIHIS0LISN] 0.6 JECUVIH1S0LTIN| 06 | ECUVIH1S0(JUN] 06 18 ECUVIHIG0L]CN | 0.6 | ECUVIHI80QIN | 0.6 | ECUVIHIG0L]PN] 0.6 | ECUVIH180L)RN| 0.6 JECUVIH1G0L]SN] 0.6 JECUVIH1G0LTIN | 06 | ECUVIH180(JUN] 06 22 ECUV{H220( CN | 0.6 | ECUVIH22000N | 0.6 | ECUVIH220(]PN] 0.6 | ECUVIH220()AN| 0.6 | ECUVIH220(]SN] 0.6 JECUVIH220CTIN | 0.6 | ECUVIH220(JUN] 06 7 ECUVIH270(J0G| 06 | ECUVIH270L}6 | 06 | ECUVIH270(JPN] 06 | ECUVIH270(JAN| 0.6 | ECUVIH270({SN] 0.6 | ECUVIH270C]IN | 0.6 | ECUVIH27OLJUN] 0.6 33 ECUVIH330(J0G| 06 | ECUVIH30Q)6 | 06 | ECUVIH330(JPN] 06 | ECUVIH330(JRN| 0.6 | ECUVIH330()SN] 0.6 ECUVIH390L]IN | 0.6 | ECUVIHS30LJUN] 0.6 39 ECUVIH300(J0G] 06 | ECUVIHSG0L)6 | 06 | ECUVIH390(JPN]| 06 | ECUVIH390(JRN | 06 | ECUVIH390L)SN] 0.6 | ECUVIH390LJIN | 0.6 | ECUVIH3G0LJUN] 0.6 47 ECUVIHA70(JOG] 06 | ECUVIH470L}G | 06 | ECUVIH470(JPN] 06 | ECUVIHA7OLJRN | 06 | ECUVIH470C{SN] 0.6 | ECUVIHA70CIIN | 0.6 | ECUVIHA7OLJUN] 0.6 56 ECUVIHS60(J0G] 0.6 | ECUVIHSE0L}6 | 06 | ECUVIHS60(JPN] 06 | ECUVIHS60(JRN | 0.6 | ECUVIHS60L{SN] 0.6 | ECUVIHS60(JTN | 0.6 | ECUVIHSE0LJUN] 0.6 68 ECUVIH6G0(J0G| 0.6 | ECUVIH680L}6 | 0.6 | ECUVIHEROLJPN] 0.6 | ECUVIHEBO(JAN | 0.6 | ECUVIH680L{SN] 0.6 | ECUVIHGOLJTN | 0.6 | ECUVIH6GOLJUN| 0.6 82 ECUVIH820(J0G| 06 | ECUVIHA20}6 | 06 | ECUVIHE20(JPN] 06 | ECUVIH820(JRN | 06 | ECUVIHe20L{SN] 0.6 ECUVIH@20(JTN | 0.6 | ECUVIHS20LJUN] 0.6 100 ECUVIHIOILJOG] 06 | ECUVIHO1G | 06 | ECUVIHTO1LJPN] 06 | ECUVIHTO1LJAN| 06 |ECUVIH1O1 ISN] 0.6 /ECUVIHIO1LJIN| 0.6 |ECUVIHIO1LJUN] 0.6 120 ogeve [EOUVIHT21L}06] 06 | ECUVIHHeIL|G [06 |ECUVIHI2 PN] 06 [ECUVIHT2ILIN] 06 |ECUVINT2ICSN] 06 | ECUVIHR2ILIMN] 06 | ECUVEHTZICJUN] 06 150 (J) [EOUVIHISICJoG] 0.6 | ECUVIHIEIQ[G | 06 | ECUVIHTSILJPN] 0.6 |ECUVIHI6ICJAN| 0:6 | ECUVIHt6Y[JSN} 0.6 |ECUVIH6YCTIN] 0.6 |ECUVIHESILJUN] 06 180 Or J ECUVIHI81[]0G) 0.6 | ECUVIHGIL]G | 0.6 JECUVIH181LJPN] 06 | ECUVIHT8ILJAN] 06 | ECUVIHT81()SN] 06 |ECUVIHIBI(JTN | 0.6 | ECUVIHISILJUN] 0.6 220 sk) ECUVIH22(J0G] 06 | ECUVIH2216 | 06 |ECUVIH221[JPN] 06 | ECUVIH221LJRN | 06 |ECUVIH22(JSN] 0.6 |ECUVIH22i(JTN| 0.6 | ECUVIH22iLJUN] 0.6 270 ECUVIH7ILJ0G| 06 | ECUVIHE71Q6 | 06 | ECUVTH271[JPN] 0.85] ECUVIH27I[JRN | 0.85] ECUVIH271[JSN] 0.85] ECUVIH27i(JTN | 0.6 | ECUVIH27ILJUN] 0.6 330 ECUV1H331(J0G| 06 | ECUVIHS31Q96 | 06 | ECUVIH331[JPN] 0.85) ECUVIHS31[JRN | 0.85] ECUVIH331(JSN] 0.85] ECUVIH33i(JTN [0.85] ECUVIHSSiLJUN] 0.6 390 ECUV1H391(J0G| 06 | ECUVIHSIQ{6 | 06 ECUVIH994(JRN [0.85] ECUV1H901(JSN] 0.85] ECUVIH391[JTN [0.85] ECUVIH391[JUX| 0.6 470 ECUVIHATILICK | 0.6 | ECUVIHATILIG | 0.6 ECUVIHA71(]SN} 0.85] ECUVIHAT([JTN [0.85] ECUVIHA7I[JUX} 06 560 ECUVIHSBILICX | 0.6 | ECUVIHSGILIG | 0.6 (Packaging Style Code)* ECUVIHS61LJUX| 0.6 680 ECUVIHGBILICX | 0.6 | ECUVIHESILIG | 0.6 ECUVIHEBILJUX| 0.6 820 ECUVIHG2IL]CX | 0.6 | ECUVIHB2IL)X | 0.6 ECUV1H821[JUX| 0.6 1000 ECUVIH02(]CX | 0.6 | ECUVIHIO2()X | 0.6 ECUVIHIO2[JUX| 0.6 1200 ECUVIH122]CX | 0.6 | ECUVIHI22L)X | 0.6 ECUVIHI22[JUX] 0.6 1500 ECUVIHIS2(]CX | 0.6 | ECUVIHIS2L)X | 0.6 ECUVIHIS2[JUX| 0.6 1800 ECUVIH82{]CX | 0.6 | ECUVIHIG2L)X | 0.6 ECUVIHI82[JUX| 0.6 2200 ECUVIH222(]CX | 0.6 | ECUVIH222[)X | 0.6 ECUVIH222[JUX| 0.6 2700 ECUV1H272{ ]CX [0.85] ECUVIH272L)X | 0.6 ECUVIH272[JUX| 0.6 + (Cap. Tol. Code}** * Packaging Style Code: V for Taped Version (Taping pitch: 4mm) and X for Bulk Type. O: Capacitance Tolerance Codes. apacitance values of E24 series and capacitance tolerance of 45% are available on special order. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors( ee, era) Mi Standard Products for12Type (EIA0805Type) , Taped Version B/X7R FAYSV , 50 VDC 25 VDC 16 VDC 10 VDC 50 VDC 25 VDC 16 VDC 10 VDC lance tance tance (pF) Part No.| T |Part No.| T |Part No.| T |Part No. | T Part No.| T |Part No.}| T | Part No.| T |Part No. | T ) 06 06 06 06 06 06 06 06 ECU2VFIHIOGZ 06 06 ECU2VFIHI5QZ 06 06 ECJ2VFIH2232 085 085 EQJ2VFIHS33Z 0,85 | ECJ2VBiE303K | 0.85 18 085 085 ECU2VFIHA7QZ 1.25) ECJOVBIES63K | 0.85 | ECJ2VB1C563k | 0.85 18 086 085 ECUOVFIH683Z | 06 | ECJOVFIEGRIZ | 06 1.25 | ECJAVBIES23K | 0.85 | ECJ2VBIC823K | 0.85 12 086 085 EQJ2VFIHI04Z | 0.85 | ECJ2VFIEI04Z | 06 | ECUVFICI04Z (Cap. Tol. Code) | ECJ2YBIEI24K | 125] ECJ2VBICI24K | 0.85 125 085 EQJ2VFIHI5AZ | 0.85 | ECJOVFIEI54Z | 06 | ECJVFICI54Z ECJ2YBIED84K | 1.25] ECMVBIC184K | 0.85 125 085 EQJOVF1H2242 | 0.85 | ECJ2VFIE224Z | 0.85) ECJ2VFIC2242 (Packaging Style Code)* 12 ECIOYFIES34Z | 125) ECJOVFICS34Z 18 ECJOVFAEA74Z | 1.25) ECJ2VFIC474Z ECJ2VFICG84Z ECWVFICIOSZ ECLYFICISSZ EQWYFIC2252 ECJOYFIAS3EZ | 1.25 EGWOYFIAA7EZ | 1.25 Packaging Style Code: V for Taped Version (Taping pitch:4 mm) and X for Bulk Type. 42k]: Capacitance Tolerance Codes. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors(5 Mi Standard Products for13 Type (EIA1206Type) , Taped Version Capacitance | Capacitance (pF) 270 330 390 470 560 680 820 1000 1200 1500 1800 2200 2700 3300 3900 4700 5600 6800 8200 10000 + Packaging Style Code: V, Y for Taped Version (Taping pitch: PO Tolerance | Part No. | T 06 06 06 06 085 085 115 1.15 (Cap. Tol. Codey** 4mm) and X for Bulk Type. O: Capacitance Tolerance Codes. Capacitance values of E24 series and capacitance tolerance Part No. of 45% are available on special order. T PA (N1 Part No. (Packaging RA T | Part No. 06 06 06 06 06 Code)}* T 06 06 06 06 06 06 Part No. or eneral) [Rated Voltage 50 VDC] TA T | Part No. 06 06 06 06 06 06 UA T | Part No. 06 06 06 06 06 06 06 T 06 06 06 06 Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors( Ee era) li Standard Products for13 Type (EIA 1206Type), Taped Version B/X7R F/Y5V 25 VDC 16 VDC 10VDC 25 VDC 16 VDC 10 VDC Capacitance T| PartNo. |T]} PartNo. | T] Tee | PartNo. | T| PartNo. | T| PartNo. | T Capactance Capacitance p Toe | Dart No. 68000 82000 E4742 1E684Z 1. 106842 1 . . 1E106Z 1. 101062 1 . Tol. . 1E156Z 1. 10162 162262 1. 102262 3300000 4700000 1 106Z | 1.6 *Packaging Style Code: V, Y for Taped Version (Taping pitch: 4mm) and X for Bulk Type. 4ek(: Capacitance Tolerance Codes. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic i Packaging Specifications @ Standard Packing Quantity Multilayer Ceramic Capacitors( en eral or ) sive Code (FIA \Thicknosse Paper taping Embossed taping Bulk Bulk case 10 (0402) | 0.6mm | Pitch2 mm: 10000 (50000) pes. /reel _ 1000 pes./bag | 50000 pes./case 1110603) | 08 Pitch2mm: 8000 (20000) pes./reel 41000 ves Jaa | 15000 (0608) | O.8MM | bitch 4mm: 4000 (10000) pos /reel _ pes./bag pos /oase 06 Pitch 2 mm: 10000 (40000) pes /reel 1000 ves bag | 10000 pes 12 (0805) | MM | itch 4 mm: 5000 (20000) pes reel _ pes.bag Pes.icase ( ) 0.85mm | Pitch4mm: 4000(10000) pcs./reel _ 1000 pes./bag _ 1.25mm _ Pitch 4 mm: 2000 (10000) pes./reel_ | 1000 pcs./bag _ 0.6mm | Pitch4mm: 5000 (20000) pes./reel _ 1000 pes./bag _ 13 (1206) | 0.85mm | Pitch4mm: 4000(10000) pcs./reel _ 1000 pes./bag _ 1.145mm _ Pitch 4 mm: 2000 (10000) pes./reel__| 1000 pcs./bag _ 1.6mm _ Pitch 4 mm: 2000 pes./reel__}| 1000 pcs./bag _ ( ) for large size reel applied @ Paper Taping @ Reel for Taping P,: 2mm att Feeding hole Chip pocket Do | oa ao du i jE yf AW WY Nu on To Hd ph oh od ee + w P1,P2| Po Tape running direction LW rymbor 110 = ae ss a oo 37 7 Symbol] _A sje} opeyo| (0402)} 20.05 | 0.05 max. max. Dirn. $180.8 980.020.913.020 21.0208 2.0205 9.0308 j3202 pim. | 44. |1,40/7,90] 8.0|3.501.7512.002.00 4.0] 1.5 (rom) | es [ic mn) on Bead ypleose) (mm) |(0603}| +0.10 | 0.10] +0.2 140.0540. 10} 0.05}40.05] 20.1 40.1] 1.1] 1.4 ( ): Large size reel Oo |max.}max. 12 [1.65] 2.4 pop) 40.20) 208 @ Leader Part and Taped End P,: 4mm Tape end t Tape running direction A P 1.10 +0.10 12 |1.65] 2.4 0.20] 40.2 2.0 | 3.6 #0.2 | +0.2 B 11 1 Dim. (mm) 34 a: x 1 1 @ Embossed Taping t Feeding hole Chip pocket @Do +- $2.0 0-0-06-" bara Aer ra ira re HW Ge Wa te Chip component P1 |Pz| Po | Tape running direction seo | A | B [WI F]E [P| Pe | Po [Do[ t | t 12 |1.55]2.35 Dim, [(0805)} #020] +02 18 Q 13.50)1.75) 4.0 12.00] 4.0] 1.5 10.6] 2.1 (mm) 43 14.95] 3.6 |#0-2 |#0-05}#0.10} #0.1 |0.05] #0.1 | +0.1 Jax. max. (1206)] 40.20] 20.2 9 40 min. Vacant position Leader part 40 min. 200 min. Vacant position (1)Bulk Case Top cover tape Unit : mm 110 Unit: mm Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Hi Typical Temperature Characteristics [Class 1 (T.C. Type)] [CH (0#60 ppm/*C)] Capacitance Change (%) Capacitance Change (%) Capacitance Change (%) Capacitance Change (%) +1.0 40.5 -0.5 -1.0 Temperature (C) [RH (-220260 ppm/C)] 42.0 +1.0 -1.0 -2.0 Temperature (C) [TH (-470260 ppm/"C)] 43.0 +2.0 +1.0 -1.0 -2.0 -3.0 Temperature (C) [SL (+350 to -1000 ppm/"C}] +4.0 +2.0 -2.0 -4.0 -6.0 Temperature (C) [Class 2 (Hi-K Type)] Capacitance Change (%) [B/X7R] Temperature ("C} Capacitance Change (%) Capacitance Change (%) Capacitance Change (%) Capacitance Change (%) Multilayer Ceramic Capacitors( ee era) [PH (-150260 ppm/C)] +2.0 +1.0 -1.0 -2.0 Temperature (C) [SH (83060 ppm/"C)] +3.0 +2.0 +1.0 -1.0 -2.0 -3.0 Temperature (C) [Ud (-7502120 ppm/"C)] +4.0 +2.0 -2.0 -4.0 -6.0 -20 -10 0 10 20 30 40 50 60 70 80 Temperature (C) [F/Y5V] 40 20 55 -25 O 20 85 125 Temperature (C) Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors Multilayer Ceramic Chip Capacitors series; ECU, ECJ (For General Electronic Equipment) Handling Precautions 4A\ Safety Precautions The Multilayer Ceramic Chip Capacitors (hereafter referred to as The Capacitors) may fail in a short circuit mode or in an open-circuit mode, when subjected to severe conditions of electrical, enviromental and/or mechanical streses beyond the specified Ratings and specified Conditions in the Catalog and the Specifications, resulting in burnout, flaming or glowing in the worst case. Following A\Precautions for Safety and Application Notes shall be taken in your major consideration. If you have a quetion about the Precautions for Handling. Please contact our engineering section or factory. 1. AOperating Conditions and Circuit Design 1.1 Operating Temperature Range The specified Operating Temperature Range in the catalog is absolute maximum and minimum temperature rating. So in any case, the Capacitors shall be operated within the specified"Operating Temperature Range. 1.2 Designs of Voltage Applications The Capacitors shall not be operated exceeding the specified Rated Voltage in the catalog. If voltage ratings are exceeded, the result could be failure or damage. In case of application of DC and AC voltages to the capacitors, the designed peak voltage shall be within the specified Rated Voltage. In case of AC of pulse voltage, the peak voltage (peak to peak) shall be within the specified Rated Voltage. If high frequency voltage or fast rising pulse voltage is applied continuously even within the Ratad Voltage, contact our engineering section before use. 1.3 Charging and Discharging Current The Capacitors shall not be operated beyond the specified Maximum Charging/Discharging Current Ratings in the specifications. Applications to a low impeadance circuit such as a secondary power circuit are not recommended for safety. 1.4 Temperature Rise by Dielectric Loss of the Capacitor The Operating Temperature Range mentioned above shall include a maximum surface tempera- ture rise of 20 C, which is caused by the Dielectric Loss of the Capacitor and applied electrical stresses (such as voltage, frequency and wave form etc.) It is recommended to measure and check Surface Temperature of the Capacitor in your equipment at your estimated/designed maximum ambient temperature. 1.5 Restriction on Environmental Conditions The Capacitors shall not be operated and/or stored under following environmental conditions; a) To be exposed directly to water or salt water. b) To be exposed directly to sunlight. c) Under conditions of condensation d) Under conditions of corrosive atomosphere such as hydrogen sulfide, sulfuric acid, chlorine, or ammonia etc. e) Under severe conditions of vibration or shock beyond the specified conditions in the Specifications. 1.6 Secular Changes in Capacitance (1) Peculiar characteristics of Secular Changes in Capaitance are observed in the Capacitors (Class 2 High Dielectric Constant. Temperature Characteristics X7R and Y5V"). The secular changes shall be considered in your circuit design. (2) The Capacitance changes, due to the individual characteristics of ceramic dielectric materials applied, can be recovered to the each initial values at shipping by a heat treatment (140 to 150C for 1 hour). (The recovered capacitance of Class 2 Capacitor shall be measured at the standard test condition after recovery times of 48 hours.) 2. ADesign of Printed Circuit Board 2.1 Selection of Printed Circuit Boards When the Capacitors are mounted and soldered on an Aluminum Substate, the substrate has influences on Capacitors reliability against Temperature Cycles and Heat shock because of difference of thermal expansion coefficient between them. It shall be carefully confirmed that the actual board to be used does not deteriorate the characteristics of the Capacitors. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors 2.2 Design of Land Pattern (1) Recommended Dimensions of Lands: As shown in Table 1 and Fig.1. Notes: * Too large land requires excess amount of solder. The Dimmensions shall be symmetrical Fig.1 Recommended Land Dimensions Solder resist 7 (Unit: mm) Table 1 Recommended Land Dimensions in mm Size Components | Land Dimensions | Land Dimensions Code Dimensions _| for Flow Soldering | for Reflow Soldering (EIA) | LJ wf tT a}tbfic a b [ic 0.5- | 2.0- | 4.4- | 1.0- | 1.8- | 3.8- | 1.2- 13 (1208)/3.21 1-8] 195 [3.4 Las | 13 | 2.4 [48 | 16 0.5- | 1.0- | 3.0- | 0.8- | 0.8- | 2.4- | 1.0- 12 (0805) 2.0/1.25) 745 | 1.4 | 3.2 | 1.0 | 1.2 | 3.2 | 1.2 0.8- | 2.0- | 0.6- | 0.8- | 2.0- | 0.8- 11 (0803)]1.6}0.8] 08 176 |S6 loa to} 26 | 10 .5- 1 1.5- | 0.5- 10 (0402)]1.0}0.51 05 | | | | ogliz los (2) Recommended amount of solder Recommended amount of solder: As shown in Fig.2 Excess amount of solder gives large mechanical stresses to the Capacitors/components. Fig.2 Recommended Amount of Solder Excessive amount Appropriate amount Too small amount of solder solder of solder Solder Solder Solder PC board x Recommended x PC board PC board 2.3 Component Layout When placing/mounting the Capacitors/components near an area which is apt to bend or a grid groove on the PC board, it is advisable to have both electrodes subjected to uniform stresses, or to position the components electrodes at right angles to the grid gloove or bending line. Fig.3 Component Layout SMD breakage probabilty by stress at a breakaway Cracks SMDs located at an easily warped oo Uneven mounting density : Proper : Improper (Under certain occasions) Probability at which the chip capacitor is broken by the stress on PC board break: A>C>B=D 2.4 Mounting Density and Spaces Placements in too narrow spaces between components may cause Solder Bridges, during soldering. The minimum space between components shall be 0.5 mm in view of the positioning tolerances of the mounting machines and the dimensional tolerances of the components and PC Boards. 2.5 Applications of Solder Resist Applications of Solder Resist are effective to prevent solder bridges and to control amounts of solder on PC boards. (As shown in Table 2) Table 2 Application Examples of Solder Resist Recommended Application Examples Examples of Solder Bridges Narrow Spacing Solder Resist Solder Bridge between Chip Components Radial Components Solder are directly Bridge Solder Resist commected to Chip Components Common lands (chassis, etc.) are close to Chip Components. Solder Resist Solder Bridge 3.Precautions for Assembly 3.1 Adhesives for Mounting (1) Selection of adhesives @ The viscosity of an adhesive for mountings shall be such that the adhesive does not flow off on the land during its curing. @ If the adhesive is too low in its viscosity, mounted components may be out of alignment after or during soldering. @ The adhesives shall not be corrosive or chemically active to the mounted components and the PC boards. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors @ The amount of adhesive shall be such that the adhesive does not flow off or be out of alignment. (2) Curing Conditions @ Adhesives for mountings can be cured by ultraviolet or infrared radiation. In order to prevent the terminal electrodes of the Capacitors from oxidizing. The curing shall be done at conditions of 160 C max., for 2 minutes max. 3.2 Chip Mounting Consideration In mounting the Capacitors/components on a printed circuit board,/any bending and expanding force against them shall be kept minimum to pre- vent them from being damaged or cracked. Following precautions and recommendations shall be observed carefully in the process; (1) Maximum stroke of the vaccum nozzle shall be adjusted so that the pushing force to the printed circuit board shall be limited to a static load of 1 to 3.N (100 to 300 gf). (See Fig.4) (2) Maximum stroke of the nozzle shall be adjusted so that the maximum bending of printed circuit board does not exceed 0.5 mm. (See Fig.4) Fig.4 Needs [| Vacuum all O Proper x Improper (3) The printed circuit board shall be supported by means of adequate supporting pins as shown in Fig.5-(b). Fig.5 (a) Improper (b) Proper Vaccum Nozzle for Chip-Mounting Vaccum Nozzle for Chip-Mounting Printed Circuit Board Pins for Supporting 3.3 A\ Soldering Flux and Solder (1) Soldering Flux: @ The content of halogen in the soldering flux shall be 0.2 wt% or less. @ Rosin-based and non-activated soldering flux is recommended. (2) Water soluble type Soldering Flux: In case of water soluble type soldering flux being applied, the flux residue on the surface of P.C. boards may have influence on the reliability of the components and cause deterioration and failures of them. (3) Solder: An eutetic solder (Sn63: Pb37) is recommended. 3.4 A\Soldering 3.4.1 Flow Soldering In flow soldering process, abnormal and large thermal and mechanical stresses, caused by Temperature Gradient between the mounted Capacitors and melted solder in a soldering bath, may be applied directly to the Capacitors, resulting in failure and damage of the capacitors. So it is essential that the soldering process shall be controlled to the following recommended conditions and precautions. (See Fig. 6) Fig.6 Recommended Soldering Temperature-Time Profile (Flow soldering) ot Soldering 2 2sob . 2 ~ a 5 200 t > Gradual cooling s Preheating 260 C) ., 5 150 * = Me E 100 . 50 ms Qo - - 1 minute or more 2 minutes or more 3105 seconds (1) Application of Flux: The soldering flux (3.3) shall be applied to the mounted Capacitors thinly and uniformly by forming method. (2) Preheating: The mounted Capacitors/Components shall be preheated sufficiently so that the Temperature Gradient between the Capacitors/components and the melted solder shall be 150C or below. (3) Immersion to Soldering Bath: The Capacitors shall be immersed into a solder- ing bath of 240 to 250 C for 3 to 5 seconds. (4) Cooling: The Capacitors shall be cooled gradually to room ambient temperature with the cooling tem- perature rates of 8C/s max. from 250 C to 170C, and 4 C/s max. from 170 C to 130 C, (5) Flux Cleaning: When the Capacitors are immersed into cleaning solvent, it shall be confirmed that the surface temperatures of devices do not exceed 100C. (See 3.5) 3.4.2 Reflow Soldering In reflow soldering process, the mounted Capacitors/components are generally heated and soldered by a thermal conduction system such as an Infrared radiation and hot blast soldering system or a Vapor Phase Soldering System (VPS), Large temperature gradients such as a rapid heating and cooling in the process may cause electrical failure and mechanical damage of the devices. It is essential that the soldering process shall be controlled by the following recom- mended conditions and precautions. (See Fig.7) Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors Fig.7 Recommended Soldering Temperature-Time Profile (Reflow soldering) ~ S00P Soldering 2 250+ 230 to 240C o 5 200; -----------7 -::-- Gradual cooling @ 150- . 2 100+ ms 50 10 s max. sa : | 60to90s 20t040s (1) Preheating 1: The mounted Capacitors/components shall be preheated sufficiently, for 60 to 90 seconds so that the surface temperatures of them to be 140 to 160C. (2) Preheating 2: After Preheating 1, the mounted Capacitors/ components shall be heated to the elevated temperatures of 150 to 200C for 2 to 5 seconds. (3) Soldering: The mounted Capacitors/components shall be heated under the specified heating conditions (200 to 240 to 200 C for total of 20 to 40 sec- onds, See Fig.7) and shall be soldered at the maximum temperature of 240C for 10 seconds or less. Cooling: s After soldering, the mounted Capacitors/ components shall be gradually cooled to room ambient temperature for preventing mechanical damages such as cracking of the devices. Flux Cleaning: Ss When the mounted Capacitors/components are immersed into cleaning solvent, it shall be comfirmed the surface temperatures of them does not exceed 100C. (See, 3.5 A\Post Soldering Cleaning) Note: If the mounted Capacitors/components are partially heated in the soldering process, the devices may be separated from the printed circuit board by the surface tension of partially melted solder, and stand up like a Tomb Stone. 3.4.3 Hand Soldering In hand soldering of the Capacitors, large tempera- ture gradient between preheated the Capacitors and the tip of soldering iron may cause electrical failures and mechanical damages such as cracking or breaking of the devices. The soldering shall be carefully controlled and carried out so that the temperature gradient is kept minimum with following recommended conditions for hand soldering. [Recommended Soldering Conditions] (1) Solder: o1 mm Thread eutectic solder (Sn63: Pb37) with soldering flux*in the core. * Rosin-based, and non-activated flux is re- commended. Preheating: The capacitors shall be preheated so that Temperature Gradient between the devices and the tip of soldering iron is 150 C or below. (3) Soldering Iron: Rated Power of 20 W max. with 3mm soldering tip in diamter. (4) Temperature of soldering iron tip: 300C max. (The required amount of solder shall be melted in advance on the soldering tip.) (5) Cooling: After soldering. The Capacitors shall be cooled gradually at room ambient temperature. 3.5 A\Post Soldering Cleaning (1) Residues of corrosive soldering fluxes on the PC board after cleaning may have great influ- ence on the electrical characteristics and the reliability (such as humidity resistance) of the Capacitors which have been mounted on the board, it shall be confirmed that the characteris- tics and the reliability of the devices are not affected by the applied cleaning conditions. (2) Solubility of alternative cleaning solvent such as alcohol etc, is inferior to that of freon cleaning solvent in flux cleaning. So in the case of alternative cleaning solvents ap- plied, fresh cleaning solvent shall always be used, and sufficient rinsing and drying shall be carried out. (3) When an ultrasonic cleaning is applied to the mounted Capacitors on PC boards, following conditions are recommended for preventing failure or damage of the devices due to the large vibration energy and the resonance caused by the ultrasonic waves : 8 Frequency 29 kHz max. Radiated Power : 20 Wiliter max. Period : 5 minuets max. 3.6 Process Inspection When the mounted printed circuits are inspected with measuring terminal pins, abnormal and excess mechanical stresses shall not be applied to the PC board and mounted components, to prevent failure or damage of the devices. (1) The mounted PC boards shall be supported by some adequate supporting pins to prevent their bending. (2) It shall be confirmed that the measuring pins have the right shaped tip, are equal in height and are set in the right positions. Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.Panasonic Multilayer Ceramic Capacitors 3.7 Protective Coating When the surface of a printed board on which the Capacitors has been mounted is coated with resin to protect against moisture and dust, it shall be confirmed that the protective coat does not influence the reliability of the capacitors in the actual equipment. (1) Coating materials, such as being corrosive and chemically active, shall not be applied to the Capacitors and other components. (2) Coating materials with a large expansivity shall not be applied to the Capacitors for preventing failures or damages (such as cracking) of the devices in the curing process. 3.8 A\Dividing/Breaking of PC Boards (1) Abnormal and excessive mechanical stresses, such as bending or expanding force, on the components on the printed circuit board, shall be kept minimum in dividing/breaking. (2) Dividing/Breaking of the PC boards shall be done carefully at moderate speed by using a jig or apparatus to protect the Capacitors on the boards from mechanical damages. 3.9 Long Term Storage The Capacitors shall not be stored under severe conditions of high temperatures and high humidities. Store them indoors under 40 C max. and 75 % RH max.. Use them within 6 months and check the solderability before use. (See 1.5) Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use. Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.